Effect of Steel Reinforcement Type and Diameter on the Strength of Non-Contact Lap Splice Connections using UHPC

Second International Interactive Symposium on UHPC Pub Date : 2019-06-02 DOI:10.21838/uhpc.9640

K. McMullen, Z. Haber

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引用次数: 2

Abstract

: Accelerated bridge construction (ABC) reduces construction time and lane closures. As such, these projects are effective for construction and rehabilitation of bridges in areas of high traffic or limited access. Ultra-high performance concrete (UHPC) has increased the ability of designers and contractors to effectively and efficiently complete ABC projects. UHPC provides many advantages for ABC connections due to its high compressive and tensile strength, durability characteristics, and rheological properties. In recent years, the Federal Highway Administration has been conducting research on non-contact lap splice connections for prefabricated bridge elements using UHPC. The research presented in this paper focuses on one aspect of that research: bond between steel rebar and UHPC. The overarching goal of this research was to develop design guidance for UHPC-rebar lap splices. Experimental testing was conducted to quantify the influence of concrete cover, bar type, bar yield strength, and bar diameter on the UHPC-rebar bond strength. Sixty-seven direct tension pull-out tests were conducted to supplement data from previous research. Newly conducted pull-out tests focused on larger bar diameters, and included #8 (No. 25) and #11 (No. 36) bars. The results showed that larger diameter bars and epoxy coated bars have lower capacities than uncoated bars, smaller diameter bars.

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钢筋类型和直径对UHPC非接触搭接接头强度的影响

:加速桥梁施工(ABC)减少施工时间和车道封闭。因此，这些项目对于在交通繁忙或出入有限的地区建造和修复桥梁是有效的。超高性能混凝土(UHPC)提高了设计师和承包商有效地完成ABC项目的能力。UHPC具有较高的抗压和抗拉强度、耐久性和流变性能，为ABC连接提供了许多优势。近年来，美国联邦公路管理局一直在研究使用UHPC预制桥梁构件的非接触搭接连接。本文的研究主要集中在该研究的一个方面:钢筋与UHPC的粘结。本研究的总体目标是开发uhpc -钢筋搭接接头的设计指南。通过试验测试，量化了混凝土覆盖层、钢筋类型、钢筋屈服强度和钢筋直径对uhpc -钢筋粘结强度的影响。进行了67次直接拉出试验，以补充先前研究的数据。新进行的拉出测试集中在更大直径的杆上，包括#8(25号)和#11(36号)杆。结果表明，大直径棒材和环氧涂层棒材的容量低于未涂层棒材和小直径棒材的容量。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Second International Interactive Symposium on UHPC

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